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Kurt Laitner

Club of Amsterdam blog: The impact of culture on education - 0 views

clubofamsterdam.blogspot.nl/...t-of-culture-on-education.html

metrics values context paper blog

shared by Kurt Laitner on 22 Jan 14 - No Cached
  • For example in some countries the objective of education is: to develop a critical mind, which in other cultures is viewed as absurd. In these countries students are supposed to try to learn as much as possible from the older generation and only when you are fully initiated you may communicate to have ideas of yourself.
  • For example in some countries the objective of education is: to develop a critical mind, which in other cultures is viewed as absurd. In these countries students are supposed to try to learn as much as possible from the older generation and only when you are fully initiated you may communicate to have ideas of yourself.
  • The combined scores for each country explain variations in behavior of people and organizations. The scores indicate the relative differences between cultures.
  • ...13 more annotations...
  • n masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • For example in some countries the objective of education is: to develop a critical mind, which in other cultures is viewed as absurd. In these countries students are supposed to try to learn as much as possible from the older generation and only when you are fully initiated you may communicate to have ideas of yourself.
  • c. Masculinity vs. Femininity (MAS) In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important.
  • He defines culture as “the collective programming of the mind that distinguishes the members of one group or category of people from others”.
  • Analyzing his data, Hofstede found five value clusters (or “dimensions”) being the most fundamental in understanding and explaining the differences in answers to the single questions in his questionnaires
  • The five dimensions of national culture identified by Hofstede are:  Power Distance Index (PDI)  Individualism vs. collectivism (IDV)  Masculinity vs. femininity (MAS)  Uncertainty Avoidance Index (UAI)  Long Term Orientation (LTO)
  • Power distance is the extent to which less powerful members of a society accept that power is distributed unequally. In high power-distance cultures everybody has his/her rightful place in society. Old age is respected, and status is important. In low power-distance cultures people try to look younger and powerful people try to look less powerful
  • In individualistic cultures, like almost all the rich Western countries, people look after themselves and their immediate family only; in collectivist cultures like Asia and Africa people belong to "in-groups" who look after them in exchange for loyalty
  • In masculine cultures like USA, UK, Germany, Japan and Italy the dominant values are achievement and success. The dominant values in feminine cultures are consensus seeking, caring for others and quality of life. Sympathy is for the underdog. People try to avoid situations distinguishing clear winners and losers.  In masculine cultures performance and achievement are important. The sympathy is for the winners. Status is important to show success. Feminine cultures like the Scandinavian countries and the Netherlands have a people orientation. Small is beautiful and status is not so important
  • Uncertainty avoidance (or uncertainty control) stands for the extent to which people feel threatened by uncertainty and ambiguity. In cultures with strong uncertainty avoidance, people have a strong emotional need for rules and formality to structure life
  • The last element of culture is the Long Term Orientation which is the extent to which a society exhibits a future-orientated perspective rather than a near term point of view.  Low scoring countries like the USA and West European countries are usually those under the influence of monotheistic religious systems, such as the Christian, Islamic or Jewish systems. People in these countries believe there is an absolute and indivisible truth. In high scoring countries such as Hong Kong, Taiwan, China, for example those practicing Buddhism, Shintoism or Hinduism,  people believe truth depends on time, context and situation
  • Kurt Laitner on 22 Jan 14
     
    has explanatory power over many of the fundamental disagreements I have seen play out in sensorica discussions - may be worthwhile to understand constituents based on this model
Tiberius Brastaviceanu

Collaborations: The rise of research networks : Nature : Nature Publishing Group - 0 views

www.nature.com/...490335a.html

open science

shared by Tiberius Brastaviceanu on 05 Aug 14 - No Cached
  • Co-authorship has been increasing inexorably3, 4. Recently it has exploded.
  • Collaboration is normally a good thing from a wider public perspective. Knowledge is better transferred and combined by collaboration, and co-authored papers tend to be cited more frequently
  • The first paper with 1,000 authors was published in 2004
  • ...33 more annotations...
  • a paper with 3,000 authors came in 2008
  • By last year, a total of 120 physics papers had more than 1,000 authors and 44 had more than 3,000
  • independent contributions to joint efforts, usually in the form of data, that involve only weak intellectual interaction
  • Papers with hundreds of co-authors contribute to the apparent pervasiveness of collaboration between countries.
  • Consequently, distinguishing Malta's own science performance is already impossible. This blurring of national distinctiveness could be a growing issue.
  • The rapid growth of each nation's research base and regional links, driven by relatively strong economies investing in innovation, will undoubtedly produce a regional research labour force to be reckoned with by 2020
  • China's rapid growth since 2000 is leading to closer research collaboration with Japan
  • Taiwan
  • South Korea
  • Australia
  • Asia-Pacific region
  • India has a growing research network with Japan, South Korea and Taiwan, although it is not as frequent a collaborator with China as one might expect
  • Middle East, Egypt and Saudi Arabia have a strong research partnership that is drawing in neighbours including Tunisia and Algeria.
  • Latin America has an emerging research network focused around Brazil,
  • has doubled its collaboration with Argentina, Chile and Mexico in the past five years
  • Africa has three distinct networks: in southern Africa, in French-speaking countries in West Africa and in English-speaking nations in East Africa.
  • proximity is just one of several factors in networks
  • use paths of least resistance to partnership, rather than routes that might provide other strategic gains
  • Commonwealth countries
  • have adopted similar research structures
  • Students
  • proximity
  • lower cost of living
  • generous government scholarships
  • Job opportunities
  • countries in science's old guard must drop their patrician tendencies, open up clear communication channels and join in with new alliances as equal participants before they find themselves the supplicants.
  • Collaboration between the public and private sectors has become more apparent because of government interest in exploiting research for economic competitiveness. Some data show that industrial investment in research seems to be dropping — perhaps a reaction to the recession, but the trend seems to be long term, at least in the United Kingdom9
  • Incentives for collaborative innovation investment that draws directly on the science base would be a good start.
  • So what are the costs and benefits of collaboration? It provides access to resources, including funding, facilities and ideas. It will be essential for grand challenges in physics, environment and health to have large, international teams supported by major facilities and rich data, which encourage the rapid spread of knowledge.
  • Research networks are a tool of international diplomacy.
  • As for costs, collaboration takes time and travel and means a shared agenda
  • The risk is that international, national and institutional agendas may become driven by the same bland establishment consensus.
  • The iconoclastic, the maverick and the marginal may find a highly collaborative world a difficult place to flourish
  • Tiberius Brastaviceanu on 05 Aug 14
     
    "Co-authorship has been increasing inexorably3, 4. Recently it has exploded."
Steve Bosserman

Meg Munn MP - Sheffield Heeley's voice in Parliament | Welcome - 0 views

www.megmunnmp.org.uk/press-view-entry.asp

cooperatives UK

shared by Steve Bosserman on 16 Jul 12 - No Cached
  • Steve Bosserman on 16 Jul 12
     
    Figures recently issued by Co-operativesUK show that co-operative business grew by 1.5% in 2011, twice the rate of the UK economy as a whole. This is the fourth consecutive year that the co-operative sector has outperformed the rest of UK business. The figures also show that it is not only in growth that co-operative businesses do better, they are also much more reliant - 98% are still in operation after three years compared to 65% of all businesses. Also 88% try to minimize the environmental impact of their activities compared to 44% of all businesses who state they do not take any action in this regard at all. Membership of trading co-operatives from 2010 to 2011 grew by 5.5% to 13.5 million people - the increase from 2008 to 2011 is 19.7%. Currently the number of co-operatives in the UK is around 5,900 - a growth of 23% from 2008. The largest growth by sector was in the renewable energy sector, and there are now 242 co-operative schools across the country.
Francois Bergeron

Join Now | ImagineNations Network - 1 views

www.imagine-network.org/...join-now-entrepreneur

network business worldwide thirdworld

shared by Francois Bergeron on 29 Sep 11 - No Cached
  • Find People or Groups with Similar Interests Connect with people or groups in your area or other countries to share ideas, learn and support each other. Find Mentors to Help You Grow Your Business When faced with the many challenges of starting and growing a small business, a business mentor can offer experience and expertise to help you achieve your business goals. Get Answers and Resources Get answers to your business questions and access helpful articles and tools to help launch or expand your business.
  • Find People or Groups with Similar Interests Connect with people or groups in your area or other countries to share ideas, learn and support each other.
  • Find Mentors to Help You Grow Your Business When faced with the many challenges of starting and growing a small business, a business mentor can offer experience and expertise to help you achieve your business goals. Get Answers and Resources Get answers to your business questions and access helpful articles and tools to help launch or expand your business.
  • Francois Bergeron on 29 Sep 11
     
    "Ready to take your business to the next level?"
sebastianklemm

Food Security Information Network (FSIN) - 1 views

www.fsinplatform.org

organization greens_for_good

shared by sebastianklemm on 16 May 21 - No Cached
  • sebastianklemm on 16 May 21
     
    FSIN is a technical platform for exchanging expertise and best practices on food security and nutrition analysis. It promotes independent and consensus-based information and highlights critical data gaps. The result of a consultative process between government institutions and development partners interested in a new vision for country-led food security information systems, FSIN continues providing support at country and regional level. Demand-driven and flexible, it remains adaptable to changing contexts and evolving needs. Today, FSIN's work spans the effort of 16 global and regional partners committed to improving availability and quality of food security and nutrition analysis for better decision-making. It also facilitates the Global Network Against Food Crises's first pillar which is centered on better understanding global food crises.
Kurt Laitner

Using Nondominion to Evolve from Local to Global Commons - P2P Foundation - 0 views

p2pfoundation.net/e_from_Local_to_Global_Commons

nondominium p2pfoundation *chriscook *markfrazier *elenorostrom *valnoraleister

shared by Kurt Laitner on 20 Jan 14 - No Cached
  • 5 “As” (Architecture, Adaptiveness, Accountability, Allocation and Access) in the governance of the global commons for the benefit of humanity."
  • the new framework focuses on veto rights – rather than recognized ownership claims
  • mutual benefit.
  • ...15 more annotations...
  • an association of beneficiaries.
  • A trustee (custodian) for the CHM would be elected by the representatives
  • to oversee the legal operation of a collective entity
  • The representatives would also appoint a Manager, for a parallel partnership venture, to identify opportunities to develop the common pool resource in accord with a transparent revenue-sharing formula
  • Each representative would have power to exercise a veto with regard to the resource development proposal(s) circulated by the manager.
  • Once an agreed formula (non-vetoed by the countries) emerged for recognizing needed inputs, and for overall revenue-sharing, the manager of the nondominium partnership would arrange open tenders to seek economic partners to maximize the value of the common pool resources.
  • Revenues from ensuing activities would be distributed to the association members on the originally-agreed basis
  • Oversight of compliance would rest with the nondominium’s trustee
  • Ostrom’s key principles of successful collective choice agreements and monitoring by independent auditors.
  • Moreover, it does not confer the active power of control held under common law by a Trustee on behalf of beneficiaries,
  • the proposed negative or passive veto right of stewardship differs fundamentally from conventional property rights of absolute ownership and temporary use under Condominium
  • The Caspian Partnership agreement would comprise a master framework agreement within which a myriad of associative agreements between the Caspian littoral nations individually or severally would be registered.”
  • encourage Ostrom’s user association-based systems of economic governance
  • "Areas recognized as being the heritage of mankind are defined by treaties as falling outside of nation-state jurisdiction and ownership, and are to be instead developed on a basis that benefits all human beings
  • the combination of Elinor Ostrom’s economic governance strategies with nondominium legal structures can lead to a new basis for common pool resources to be developed on a basis benefiting all of humanity.
Tiberius Brastaviceanu

Science and Technology Consultation - Industry Canada - 0 views

www.ic.gc.ca/...h_07416.html

Industry Canada

shared by Tiberius Brastaviceanu on 15 Jan 14 - No Cached
  • Under this strategy
    • Yasir Siddiqui
      Yasir Siddiqui on 15 Jan 14
       
      Testing
    • Yasir Siddiqui
      Yasir Siddiqui on 15 Jan 14
       
      testing
  • Genome Canada, the Canadian Institute for Advanced Research and the Canada Foundation for Innovation.
  • Still, Canadian businesses continue to underperform when it comes to innovation—a primary driver of productivity growth—when compared to other competing nations. The performance of business R&D is one oft-cited measure used to gauge the level of innovative activity in a country's business sector.
  • ...38 more annotations...
  • Canadians have reached top tier global performance in reading, mathematics, problem solving and science, and Canada has rising numbers of graduates with doctoral degrees in science and engineering.
  • This valuable resource of highly qualified and skilled individuals needs to be better leveraged.
  • The ease and ability of the academic community to collaborate, including through research networks, is also well-recognized.
  • to develop technologies, products and services that add value and create high-paying jobs.
  • Canada has an impressive record when it comes to research and the quality of its knowledge base.
  • Still, the innovative performance of Canada's firms and the productivity growth continue to lag behind competing nations.
  • The government is also committed to moving forward with a new approach to promoting business innovation—one that emphasizes active business-led initiatives and focuses resources on better fostering the growth of innovative firms.
  • Achieving this requires the concerted effort of all players in the innovation system—to ensure each does what one does best and to leverage one another's strengths.
  • the government has invested more to support science, technology and innovative companies than ever before
  • Canada must become more innovative
    • Kurt Laitner
      Kurt Laitner on 15 Jan 14
       
      problem statement
  • providing a new framework to guide federal ST&I investments and priorities. That is why the Government of Canada stated its intention to release an updated ST&I Strategy in the October 2013 Speech from the Throne.
    • Kurt Laitner
      Kurt Laitner on 15 Jan 14
       
      exercise
  • seeking the views of stakeholders from all sectors of the ST&I system—including universities, colleges and polytechnics, the business community, and Canadians
  • written submissions from all Canadians on the policy issues and questions presented in this paper.
  • The government remains focused on creating jobs, growth and long-term prosperity for Canadians
  • encouraging partnerships with industry, attracting highly skilled researchers, continuing investments in discovery-driven research, strengthening Canada's knowledge base, supporting research infrastructure and providing incentives to private sector innovation.
  • has transformed the National Research Council, doubled its investment
  • supported research collaborations through the federal granting councils
  • created the new Venture Capital Action Plan
  • helping to promote greater commercialization of research and development
  • Our country continues to lead the G7 in spending on R&D
  • Canada has a world-class post-secondary education system that embraces and successfully leverages collaboration with the private sector, particularly through research networks
  • destination for some of the world's brightest minds
  • global race
  • businesses that embrace innovation-based strategies
  • post-secondary and research institutions that attract and nurture highly qualified and skilled talent
  • researchers who push the frontiers of knowledge
  • governments that provide the support
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 07 Feb 14
       
      Why a race? We need to change the way we see this!!! We need to open up. See the European Commission Horizon 2020 program  http://ec.europa.eu/programmes/horizon2020/en/ They are acknowledging that Europe cannot do it alone, and are spending money on International collaboration. 
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 07 Feb 14
       
      There is nothing about non-institutionalized innovation, i.e. open source! There is nothing about the public in this equation like the Europeans do in the Digital Era for Europe program  https://ec.europa.eu/digital-agenda/node/66731 
  • low taxes, strong support for new businesses, a soundly regulated banking system, and ready availability of financial services
  • reducing red tape
  • expanding training partnerships and improving access to venture capital.
  • Collaboration is key to mobilizing innovation
  • invest in partnerships between businesses and colleges and universities
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 07 Feb 14
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 07 Feb 14
       
      But the public and in people is still not in sight of the fed gov. 
  • Economic Action Plans (EAP) 2012 and 2013
  • provide incentive for innovative activity in firms, improved access to venture capital, augmented and more coordinated direct support to firms, and deeper partnerships and connections between the public and private sectors.
Tiberius Brastaviceanu

Home - Review of Federal Support to Research and Development - 1 views

rd-review.ca/...home

Industry Canada

shared by Tiberius Brastaviceanu on 04 Feb 14 - No Cached
  • 5 billion worth of R&D funding provided by the federal government every year
  • helping our innovative SMEs grow into larger, world-competitive companies in Canada
  • government support for business R&D in Canada is among the most generous in the world, yet we're near the bottom of the pack when it comes to seeing business R&D investment
  • ...7 more annotations...
  • What we found was a funding system that is unnecessarily complicated and confusing to navigate
  • significant gaps that hinder the ability of our businesses to grow
  • The encouragement of home-grown innovation a part of government procurement is commonsense
  • the NRC can play a unique role, linking its large-scale, long-term research activity with the academic and business communities
  • challenges in getting start-up funding and late stage risk capital financing
  • the gap is filled by foreign investors, which means that too many commercial benefits and intellectual property end up leaving the country
  • government-wide clarity when it comes to innovation
Tiberius Brastaviceanu

Innovation Canada: A Call to Action - Review of Federal Support to Research and Develop... - 1 views

rd-review.ca/...00288.html

Industry Canada

shared by Tiberius Brastaviceanu on 04 Feb 14 - No Cached
  • Canada has a solid foundation on which to build success as a leader in the knowledge economy of tomorrow
  • innovation in Canada lags behind other highly developed countries
  • innovation is the ultimate source of the long-term competitiveness of businesses and the quality of life of Canadians
  • ...28 more annotations...
  • We heard that the government should be more focussed on helping innovative firms to grow and, particularly, on serving the needs of small and medium-sized enterprises (SMEs)
  • greater cooperation with provincial programs
  • innovation support is too narrowly focussed on R&D – more support is needed for other activities along the continuum from ideas to commercially useful innovation
  • more productive and internationally competitive economy
  • whole-of-government program delivery vehicle – the Industrial Research and Innovation Council (IRIC)
  • SR&ED program should be simplified
  • includes non-labour costs, such as materials and capital equipment, the calculation of which can be highly complex
  • the base for the tax credit should be labour-related costs, and the tax credit rate should be adjusted upward
  • fund direct support measures for SMEs
  • promoting the growth of firms
  • facilitating access by such firms to an increased supply of risk capital at both the start-up and later stages of their growth.
  • building public–private research collaborations
  • National Research Council (NRC) should become independent collaborative research organizations
  • become affiliates of universities
  • create opportunity and demand for leading-edge goods
  • encouragement of innovation in the Canadian economy should become a stated objective of procurement policies and programs.
  • the government needs to establish business innovation as a whole-of-government priority
  • put innovation at the centre of the government's economic strategy
  • Innovation Advisory Committee (IAC) – a body with a whole-of-government focus that would oversee the realization of our proposed action plan, as well as serve as a permanent mechanism to promote the refinement and improvement of the government's business innovation programs going forward.
  • focus resources where market forces are unlikely to operate effectively or efficiently and, in that context, address the full range of business innovation activities, including research, development, commercialization and collaboration with other key actors in the innovation ecosystem
  • the closer the activity being supported is to market, and therefore the more likely it is that the recipient firm will capture most of the benefit for itself.
  • specific sectors
  • of strategic importance
  • concentrated in particular regions
  • succeed in the arena of global competition
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 05 Feb 14
       
      They don't go beyond the firm
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 05 Feb 14
       
      they are still stuck in the competitive paradigm
    • Tiberius Brastaviceanu
      Tiberius Brastaviceanu on 05 Feb 14
       
      Still stack with the old paradigm of the "knowledge economy"  http://en.wikipedia.org/wiki/Knowledge_economy  My opinion is that we're moving into a know-how economy. 
Tiberius Brastaviceanu

POWER-CURVE SOCIETY: The Future of Innovation, Opportunity and Social Equity in the Eme... - 1 views

www.aspeninstitute.org/...tion-opportunity-social-equity

book paper value networks

shared by Tiberius Brastaviceanu on 17 Oct 13 - No Cached
  • how technological innovation is restructuring productivity and the social and economic impact resulting from these changes
  • concern about the technological displacement of jobs, stagnant middle class income, and wealth disparities in an emerging "winner-take-all" economy
  • personal data ecosystems that could potentially unlock a revolutionary wave of individual economic empowerment
  • ...70 more annotations...
  • the bell curve described the wealth and income distribution of American society
  • As the technology boom of the 1990s increased productivity, many assumed that the rising water level of the economy was raising all those middle class boats. But a different phenomenon has also occurred. The wealthy have gained substantially over the past two decades while the middle class has remained stagnant in real income, and the poor are simply poorer.
  • America is turning into a power-curve society: one where there are a relative few at the top and a gradually declining curve with a long tail of relatively poorer people.
  • For the first time since the end of World War II, the middle class is apparently doing worse, not better, than previous generations.
  • an alarming trend
  • What is the role of technology in these developments?
  • a sweeping look at the relationship between innovation and productivity
  • New Economy of Personal Information
  • Power-Curve Society
  • the future of jobs
  • the report covers the social, policy and leadership implications of the “Power-Curve Society,”
  • World Wide Web
  • as businesses struggle to come to terms with this revolution, a new set of structural innovations is washing over businesses, organizations and government, forcing near-constant adaptation and change. It is no exaggeration to say that the explosion of innovative technologies and their dense interconnections is inventing a new kind of economy.
  • the new technologies are clearly driving economic growth and higher productivity, the distribution of these benefits is skewed in worrisome ways.
  • the networked economy seems to be producing a “power-curve” distribution, sometimes known as a “winner-take-all” economy
  • Economic and social insecurity is widespread.
  • major component of this new economy, Big Data, and the coming personal data revolution fomenting beneath it that seeks to put individuals, and not companies or governments, at the forefront. Companies in the power-curve economy rely heavily on big databases of personal information to improve their marketing, product design, and corporate strategies. The unanswered question is whether the multiplying reservoirs of personal data will be used to benefit individuals as consumers and citizens, or whether large Internet companies will control and monetize Big Data for their private gain.
  • Why are winner-take-all dynamics so powerful?
  • appear to be eroding the economic security of the middle class
  • A special concern is whether information and communications technologies are actually eliminating more jobs than they are creating—and in what countries and occupations.
  • How is the power-curve economy opening up opportunities or shutting them down?
  • Is it polarizing income and wealth distributions? How is it changing the nature of work and traditional organizations and altering family and personal life?
  • many observers fear a wave of social and political disruption if a society’s basic commitments to fairness, individual opportunity and democratic values cannot be honored
  • what role government should play in balancing these sometimes-conflicting priorities. How might educational policies, research and development, and immigration policies need to be altered?
  • The Innovation Economy
  • Conventional economics says that progress comes from new infusions of capital, whether financial, physical or human. But those are not necessarily the things that drive innovation
  • What drives innovation are new tools and then the use of those new tools in new ways.”
  • at least 50 percent of the acceleration of productivity over these years has been due to ICT
  • economists have developed a number of proxy metrics for innovation, such as research and development expenditures.
  • Atkinson believes that economists both underestimate and overestimate the scale and scope of innovation.
  • Calculating the magnitude of innovation is also difficult because many innovations now require less capital than they did previously.
  • Others scholars
  • see innovation as going in cycles, not steady trajectories.
  • A conventional approach is to see innovation as a linear, exponential phenomenon
  • leads to gross errors
  • Atkinson
  • believes that technological innovation follows the path of an “S-curve,” with a gradual increase accelerating to a rapid, steep increase, before it levels out at a higher level. One implication of this pattern, he said, is that “you maximize the ability to improve technology as it becomes more diffused.” This helps explain why it can take several decades to unlock the full productive potential of an innovation.
  • innovation keeps getting harder. It was pretty easy to invent stuff in your garage back in 1895. But the technical and scientific challenges today are huge.”
  • costs of innovation have plummeted, making it far easier and cheaper for more people to launch their own startup businesses and pursue their unconventional ideas
  • innovation costs are plummeting
  • Atkinson conceded such cost-efficiencies, but wonders if “the real question is that problems are getting more complicated more quickly than the solutions that might enable them.
  • we may need to parse the different stages of innovation: “The cost of innovation generally hasn’t dropped,” he argued. “What has become less expensive is the replication and diffusion of innovation.”
  • what is meant by “innovation,”
  • “invention plus implementation.”
  • A lot of barriers to innovation can be found in the lack of financing, organizational support systems, regulation and public policies.
  • 90 percent of innovation costs involve organizational capital,”
  • there is a serious mismatch between the pace of innovation unleashed by Moore’s Law and our institutional and social capacity to adapt.
  • This raises the question of whether old institutions can adapt—or whether innovation will therefore arise through other channels entirely. “Existing institutions are often run by followers of conventional wisdom,”
  • The best way to identify new sources of innovation, as Arizona State University President Michael Crow has advised, is to “go to the edge and ignore the center.”
  • Paradoxically, one of the most potent barriers to innovation is the accelerating pace of innovation itself.
  • Institutions and social practice cannot keep up with the constant waves of new technologies
  • “We are moving into an era of constant instability,”
  • “and the half-life of a skill today is about five years.”
  • Part of the problem, he continued, is that our economy is based on “push-based models” in which we try to build systems for scalable efficiencies, which in turn demands predictability.
  • The real challenge is how to achieve radical institutional innovations that prepare us to live in periods of constant two- or three-year cycles of change. We have to be able to pick up new ideas all the time.”
  • pace of innovation is a major story in our economy today.
  • The App Economy consists of a core company that creates and maintains a platform (such as Blackberry, Facebook or the iPhone), which in turn spawns an ecosystem of big and small companies that produce apps and/or mobile devices for that platform
  • tied this success back to the open, innovative infrastructure and competition in the U.S. for mobile devices
  • standard
  • The App Economy illustrates the rapid, fluid speed of innovation in a networked environment
  • crowdsourcing model
  • winning submissions are
  • globally distributed in an absolute sense
  • problem-solving is a global, Long Tail phenomenon
  • As a technical matter, then, many of the legacy barriers to innovation are falling.
  • small businesses are becoming more comfortable using such systems to improve their marketing and lower their costs; and, vast new pools of personal data are becoming extremely useful in sharpening business strategies and marketing.
  • Another great boost to innovation in some business sectors is the ability to forge ahead without advance permission or regulation,
  • “In bio-fabs, for example, it’s not the cost of innovation that is high, it’s the cost of regulation,”
  • This notion of “permissionless innovation” is crucial,
  • “In Europe and China, the law holds that unless something is explicitly permitted, it is prohibited. But in the U.S., where common law rather than Continental law prevails, it’s the opposite
Steve Bosserman

Food Safety in China, and the Risk to the U.S. - 0 views

www.foodsafetynews.com/...n-china-and-the-risk-to-the-us

food_safety china market_opportunity food_system

shared by Steve Bosserman on 05 Sep 11 - No Cached
  • Steve Bosserman on 05 Sep 11
     
    Three years after the melamine-in-milk scandal that made 300,000 children sick, and two years after China passed its first-ever food safety law in response, the country is still struggling to keep its food supply healthy. The Chinese government recently cracked down, closing almost 5,000 food-producing businesses and arresting 2,000 people -- but China experts say a needlessly complex bureaucracy and ferocious determination to turn a profit mean the contamination will keep coming. (On forums where expats chat, Westerners living in China wonder whether there is anything safe to eat.) (Update: Commenters at the China Law Blog, many of them apparently resident in China, reflect the same anxiety.)
Tiberius Brastaviceanu

ISSI-5-2014 - 0 views

ec.europa.eu/...2418-issi-5-2014.html

horizon 2020 proposal Tibi's selection

shared by Tiberius Brastaviceanu on 02 Jun 14 - No Cached
  • The proposals should include an international dimension in particular with the following countries: Brazil, Republic of South Africa, India, Canada, Australia, Russia, United States of America, Japan and China.
  • encourage the modernisation of institutional practices and culture in research institutions, Higher Education Institutions and funding agencies, to promote Responsible Research and Innovation
  • increase Responsible Research and Innovation uptake in research organizations
  • ...1 more annotation...
  • developing a Responsible Research and Innovation Plan covering five RRI keys (societal engagement, gender equality and gender in research and innovation content, open access, science education and ethics) in each participating institution.
  • Tiberius Brastaviceanu on 02 Jun 14
     
    "Topic: Supporting structural change in research organisations to promote Responsible Research and Innovation"
Tiberius Brastaviceanu

INFRASUPP-7-2014 - 0 views

ec.europa.eu/...70-infrasupp-7-2014.html

horizon 2020 proposal Tibi's selection Guillaume

shared by Tiberius Brastaviceanu on 02 Jun 14 - No Cached
  • Topic: e-Infrastructure policy development and international cooperation
  • coordinate European, national and/or regional policies and programmes for e-infrastructures
  • global interoperability and reach
  • ...9 more annotations...
  • Scope: Proposals will support one or more of the following actions:
  • Dissemination of information on the e-infrastructure programme
  • coordination
  • Stakeholder initiatives
  • Policy coordination at European or regional level
  • metrics and indicators
  • Monitor and analyse
  • Support to technology transfer
  • Support to cooperation with developing countries
  • Tiberius Brastaviceanu on 02 Jun 14
     
    "Topic: e-Infrastructure policy development and international cooperation"
Kurt Laitner

Digital Reality | Edge.org - 0 views

edge.org/...il_gershenfeld-digital-reality

*neilgershenfeld fab labs IoT molecular computing nano star trek replicator

shared by Kurt Laitner on 17 Feb 15 - No Cached
  • When you snap the bricks together, you don't need a ruler to play Lego; the geometry comes from the parts
  • first attribute is metrology that comes from the parts
  • digitizing composites into little linked loops of carbon fiber instead of making giant pieces
  • ...75 more annotations...
  • In a 3D printer today, what you can make is limited by the size of the machine. The geometry is external
  • is the Lego tower is more accurate than the child because the constraint of assembling the bricks lets you detect and correct errors
  • That's the exponential scaling for working reliably with unreliable parts
  • Because the parts have a discrete state, it means in joining them you can detect and correct errors
  • detect and correct state to correct errors to get an exponential reduction in error, which gives you an exponential increase in complexity
  • The next one is you can join Lego bricks made out of dissimilar materials.
  • The last one is when you're done with Lego you don't put it in the trash; you take it apart and reuse it because there's state in the materials. In a forest there's no trash; you die and your parts get disassembled and you're made into new stuff. When you make a 3D print or laser cut, when you're done there's recycling attempts but there's no real notion of reusing the parts
  • The metrology coming from the parts, detecting and correcting errors, joining dissimilar materials, disconnecting, reusing the components
  • On the very smallest scale, the most exciting work on digital fabrication is the creation of life from scratch. The cell does everything we're talking about. We've had a great collaboration with the Venter Institute on microfluidic machinery to load designer genomes into cells. One step up from that we're developing tabletop chip fab instead of a billion dollar fab, using discrete assembly of blocks of electronic materials to build things like integrated circuits in a tabletop process
  • a child can make a Lego structure bigger than themself
  • There's a series of books by David Gingery on how to make a machine shop starting with charcoal and iron ore.
  • There are twenty amino acids. With those twenty amino acids you make the motors in the molecular muscles in my arm, you make the light sensors in my eye, you make my neural synapses. The way that works is the twenty amino acids don't encode light sensors, or motors. They’re very basic properties like hydrophobic or hydrophilic. With those twenty properties you can make you. In the same sense, digitizing fabrication in the deep sense means that with about twenty building blocks—conducting, insulating, semiconducting, magnetic, dielectric—you can assemble them to create modern technology
  • By discretizing those three parts we can make all those 500,000 resistors, and with a few more parts everything else.
  • Now, there's a casual sense, which means a computer controls something to make something, and then there's the deep sense, which is coding the materials. Intellectually, that difference is everything but now I'm going to explain why it doesn't matter.
  • Then in turn, the next surprise was they weren't there for research, they weren't there for theses, they wanted to make stuff. I taught additive, subtractive, 2D, 3D, form, function, circuits, programming, all of these skills, not to do the research but just using the existing machines today
  • What they were answering was the killer app for digital fabrication is personal fabrication, meaning, not making what you can buy at Walmart, it’s making what you can't buy in Walmart, making things for a market of one person
  • The minicomputer industry completely misread PCs
  • the Altair was life changing for people like me. It was the first computer you could own as an individual. But it was almost useless
  • It was hard to use but it brought the cost from a million dollars to 100,000 and the size from a warehouse down to a room. What that meant is a workgroup could have one. When a workgroup can have one it meant Ken Thompson and Dennis Ritchie at Bell Labs could invent UNIX—which all modern operating systems descend from—because they didn't have to get permission from a whole corporation to do it
  • At the PC stage what happened is graphics, storage, processing, IO, all of the subsystems got put in a box
  • To line that up with fabrication, MIT's 1952 NC Mill is similar to the million-dollar machines in my lab today. These are the mainframes of fab. You need a big organization to have them. The fab labs I'll tell you about are exactly analogous to the cost and complexity of minicomputers. The machines that make machines I'll tell you about are exactly analogous to the cost and complexity of the hobbyist computers. The research we're doing, which is leading up to the Star Trek Replicator, is what leads to the personal fabricator, which is the integrated unit that makes everything
  • conducting, resistive, insulating.
  • The fab lab is 2 tons, a $100,000 investment. It fills a few thousand square feet, 3D scanning and printing, precision machining, you can make circuit boards, molding and casting tooling, computer controlled cutting with a knife, with a laser, large format machining, composite layup, surface mount rework, sensors, actuators, embedded programming— technology to make technology.
  • Ten years you can just plot this doubling. Today, you can send a design to a fab lab and you need ten different machines to turn the data into something. Twenty years from now, all of that will be in one machine that fits in your pocket.
  • We've been living with this notion that making stuff is an illiberal art for commercial gain and it's not part of the means of expression. But, in fact, today, 3D printing, micromachining, and microcontroller programming are as expressive as painting paintings or writing sonnets but they're not means of expression from the Renaissance. We can finally fix that boundary between art and artisans
  • You don't go to a fab lab to get access to the machine; you go to the fab lab to make the machine.
  • Over the next maybe five years we'll be transitioning from buying machines to using machines to make machines. Self-reproducing machines
  • But they still have consumables like the motors, and they still cut or squirt. Then the interesting transition comes when we go from cutting or printing to assembling and disassembling, to moving to discretely assembled materials
  • because if anybody can make anything anywhere, it challenges everything
    • Kurt Laitner
      Kurt Laitner on 17 Feb 15
       
      great quote (replace challenges with changes for effect)
  • Now, the biggest surprise for me in this is I thought the research was hard. It's leading to how to make the Star Trek Replicator. The insight now is that's an exercise in embodied computation—computation in materials, programming their construction. Lots of work to come, but we know what to do
  • And that's when you do tabletop chip fab or make airplanes. That's when technical trash goes away because you can disassemble. 
  • irritated by the maker movement for the failure in mentoring
  • At something like a Maker Faire, there's hall after hall of repeated reinventions of bad 3D printers and there isn't an easy process to take people from easy to hard
  • We started a project out of desperation because we kept failing to succeed in working with existing schools, called the Fab Academy. Now, to understand how that works, MIT is based on scarcity. You assume books are scarce, so you have to go there for the library; you assume tools are scarce, so you have to go there for the machines; you assume people are scarce, so you have to go there to see them; and geography is scarce. It adds up to we can fit a few thousand people at a time. For those few thousand people it works really well. But the planet is a few billion people. We're off by six orders of magnitude. 
  • Next year we're starting a new class with George Church that we've called "How to Grow Almost Anything", which is using fab labs to make bio labs and then teach biotech in it. What we're doing is we're making a new global kind of university
  • Amusingly, I went to my friends at Educause about accrediting the Fab Academy and they said, "We love it. Where are you located?" And I said, "Yes" and they said, "No." Meaning, "We're all over the earth." And they said, "We have no mechanism. We're not allowed to do that. There's no notion of global accreditation."
  • Then they said something really helpful: "Pretend."
  • Once you have a basic set of tools, you can make all the rest of the tools
  • The way the Fab Academy works, in computing terms, it's like the Internet. Students have peers in workgroups, with mentors, surrounded by machines in labs locally. Then we connect them globally by video and content sharing and all of that. It's an educational network. There are these critical masses of groups locally and then we connect them globally
  • You still have Microsoft or IBM now but, with all respect to colleagues there, arguably that's the least interesting part of software
  • To understand the economic and social implications, look at software and look at music to understand what's happening now for fabrication
  • There's a core set of skills a place like MIT can do but it alone doesn't scale to a billion people. This is taking the social engineering—the character of MIT—but now doing it on this global scale.
  • Mainframes didn't go away but what opened up is all these tiers of software development that weren't economically viable
  • If you look at music development, the most interesting stuff in music isn't the big labels, it's all the tiers of music that weren't viable before
  • You can make music for yourself, for one, ten, 100, 1,000, a million. If you look at the tracks on your device, music is now in tiers that weren't economically viable before. In that example it's a string of data and it becomes a sound. Now in digital fab, it's a string of data and it becomes a thing.
  • What is work? For the average person—not the people who write for Edge, but just an average person working—you leave home to go to a place you'd rather not be, doing a repetitive operation you'd rather not do, making something designed by somebody you don't know for somebody you'll never see, to get money to then go home and buy something. But what if you could skip that and just make the thing?
    • Kurt Laitner
      Kurt Laitner on 17 Feb 15
       
      !!!
  • It took about ten years for the dot com industry to realize pretty much across the board you don't directly sell the thing. You sell the benefits of the thing
  • 2016 it's in Shenzhen because they're pivoting from mass manufacturing to enabling personal fabrication. We've set Shenzhen as the goal in 2016 for Fab Lab 2.0, which is fab labs making fab labs
  • To rewind now, you can send something to Shenzhen and mass manufacture it. There's a more interesting thing you can do, which is you go to market by shipping data and you produce it on demand locally, and so you produce it all around the world.
  • But their point was a lot of printers producing beautiful pages slowly scales if all the pages are different
  • In the same sense it scales to fabricate globally by doing it locally, not by shipping the products but shipping the data.
  • It doesn't replace mass manufacturing but mass manufacturing becomes the least interesting stuff where everybody needs the same thing. Instead, what you open up is all these tiers that weren't viable before
  • There, they consider IKEA the enemy because IKEA defines your taste. Far away they make furniture and flat pack it and send it to a big box store. Great design sense in Barcelona, but 50 percent youth unemployment. A whole generation can't work. Limited jobs. But ships come in from the harbor, you buy stuff in a big box store. And then after a while, trucks go off to a trash dump. They describe it as products in, trash out. Ships come in with products, trash goes out
    • Kurt Laitner
      Kurt Laitner on 17 Feb 15
       
      worse actually.. the trash stays
  • The bits come and go, globally connected for knowledge, but the atoms stay in the city.
  • instead of working to get money to buy products made somewhere else, you can make them locally
    • Kurt Laitner
      Kurt Laitner on 17 Feb 15
       
      this may solve greece's problem, walk away from debt, you can't buy other people's (country's) stuff anymore, so make it all yourself
  • The biggest tool is a ShotBot 4'x8'x1' NC mill, and you can make beautiful furniture with it. That's what furniture shops use
  • Anything IKEA makes you can make in a fab lab
  • it means you can make many of the things you consume directly rather than this very odd remote economic loop
  • the most interesting part of the DIY phone projects is if you're making a do-it-yourself phone, you can also start to make the things that the phones talk to. You can start to build your own telco providers where the users provide the network rather than spending lots of money on AT&T or whoever
  • Traditional manufacturing is exactly replaying the script of the computer companies saying, "That's a toy," and it's shining a light to say this creates entirely new economic activity. The new jobs don't come back to the old factories. The ability to make stuff on demand is creating entirely new jobs
  • To keep playing that forward, when I was in Barcelona for the meeting of all these labs hosted by the city architect and the city, the mayor, Xavier Trias, pushed a button that started a forty-year countdown to self-sufficiency. Not protectionism
  • I need high-torque efficient motors with integrated lead screws at low cost, custom-produced on demand. All sorts of the building blocks that let us do what I'm doing currently rest on a global supply chain including China's manufacturing agility
  • The short-term answer is you can't get rid of them because we need them in the supply chain. But the long-term answer is Shenzhen sees the future isn't mass producing for everybody. That's a transitional stage to producing locally
  • My description of MIT's core competence is it's a safe place for strange people
  • The real thing ultimately that's driving the fab labs ... the vacuum we filled is a technical one. The means to make stuff. Nobody was providing that. But in turn, the spaces become magnets. Everybody talks about innovation or knowledge economy, but then most things that label that strangle it. The labs become vehicles for bright inventive people who don't fit locally. You can think about the culture of MIT but on this global scale
  • My allegiance isn't to any one border, it's to the brainpower of the planet and this is building the infrastructure to scale to that brainpower
  • If you zoom from transistors to microcode to object code to a program, they don't look like each other. But if we take this room and go from city, state, country, it's hierarchical but you preserve geometry
  • Computation violates geometry unlike most anything else we do
  • The reason that's so important for the digital fabrication piece is once we build molecular assemblers to build arbitrary systems, you don't want to then paste a few lines of code in it. You need to overlay computation with geometry. It's leading to this complete do-over of computer science
  • If you take digital fab, plus the real sense of Internet of Things—not the garbled sense—plus the real future of computing aligning hardware and software, it all adds up to this ability to program reality
  • I run a giant video infrastructure and I have collaborators all over the world that I see more than many of my colleagues at MIT because we're all too busy on campus. The next Silicon Valley is a network, it's not a place. Invention happens in these networks.
  • When Edwin Land was kicked out of Polaroid, he made the Rowland Institute, which was making an ideal research institute with the best facilities and the best people and they could do whatever they want. But almost nothing came from it because there was no turnover of the gene pool, there was no evolutionary pressure.  
  • the wrong way to do research, which is to believe there's a privileged set of people that know more than anybody else and to create a barrier that inhibits communication from the inside to the outside
  • you need evolutionary pressure, you need traffic, you need to be forced to deal with people you don't think you need to encounter, and you need to recognize that to be disruptive it helps to know what people know
  • For me the hardest thing isn't the research. That's humming along nicely. It's that we're finding we have to build a completely new kind of social order and that social entrepreneurship—figuring out how you live, learn, work, play—is hard and there's a very small set of people who can do that kind of organizational creation.
    • Kurt Laitner
      Kurt Laitner on 17 Feb 15
       
      our challenge in the OVN space
  • Kurt Laitner on 17 Feb 15
     
    what is heavy is local, what is light is global, and increasingly manufacturing is being recreated along this principle
sebastianklemm

Stay foundation Stuttgart - Stay Stiftung - 1 views

stay-stiftung.org/stay-foundation-stuttgart

organization greens_for_good

shared by sebastianklemm on 19 Apr 21 - No Cached
  • sebastianklemm on 19 Apr 21
     
    What does the Stay Foundation do once the social enterprises have found each other? In the truest sense of the word development-aid.These local social enterprises lack the financial support to exploit their development potential. The team of the Stay Foundation in Stuttgart is sure that if funds are provided by industrial nations, which are then used for the expansion of existing social enterprises, it is development-aid on an equal footing. The challenge in Germany is therefore to attract companies and private individuals to invest in social enterprises in developing countries. In order to raise awareness of Africa and the local social enterprises which are active there, the team organises events for entrepreneurs, is present at events on the subject of Africa, informs private individuals about the foundation and its objectives, examines possibilities for funding and cooperation with the aim of supporting the remaining development in Africa.
sebastianklemm

Social Impact Network - 0 views

social-impact.network

greens_for_good funding platform

shared by sebastianklemm on 25 Jun 21 - No Cached
  • sebastianklemm on 25 Jun 21
     
    The "Social Impact Network" approach will be a combination of a crowd based impact investment infrastructure, onboarded international aid organisation as stakeholders and local project coordinators for the implementation of impact projects in local communities in need. The platform will start with Photovoltaic projects in Lebanon, with UNDP Lebanon Country Office as first main stakeholder that reviews the PV projects & identifies project coordinators. This approach can also work to help implement the "Greens for Good" solution.
faly77

Low-tech Lab - Home - 0 views

lowtechlab.org/en

greens_for_good opensource collaboration

shared by faly77 on 06 Jul 21 - No Cached
  • faly77 on 06 Jul 21
     
    All over the world, low-tech initiatives arise or develop. 81 countries documented on all continents - 649 initiatives spotted and continuously updated - 12 fields of application: energy, water, nutrition, hygiene, ...
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